CN116494519A - Composite board laminating device and method thereof - Google Patents

Abstract

The application relates to the field of composite board processing, in particular to a composite board laminating device and a method thereof. The technical problems of the invention are as follows: there is the clearance between two adjacent composite sheets, and there is not support here under the protection film, leads to the pad pasting roller to extrude the protection film between the adjacent composite sheet for the protection film warp wrinkling influences the outward appearance of product. The technical implementation scheme of the invention is as follows: a composite board laminating device comprises a footing, a first mounting plate, an electric conveyer belt and the like; three feet are fixedly connected to the lower sides of the two first mounting plates respectively; an electric conveying belt is jointly installed between the two first mounting plates, and a plurality of penetrating grooves are formed in the conveying belt of the electric conveying belt. According to the invention, the two bearing plates are arranged between the two film plates to be coated, and move together with the film plates to be coated to carry out film coating during film coating, so that the protective film is not extruded at the end part of the film plates to be coated during film coating.

Description

Composite board laminating device and method thereof

Technical Field

The application relates to the field of composite board processing, in particular to a composite board laminating device and a method thereof.

Background

At present, after the composite board is formed, a film is required to be coated on the surface of the composite board to play roles of dust prevention and scratch prevention, and the existing method for coating the composite board is to place two composite boards on conveying equipment in parallel one after the other, so that the conveying equipment carries the two composite boards at a certain distance from each other to pass through the film coating equipment, the film coating equipment can cover a protective film on the two composite boards, and after the film coating is finished, a cutter is used for transversely cutting off the film between the two composite boards; however, a gap exists between two adjacent composite boards, no support exists below the protective film, and the protective film between the adjacent composite boards can be extruded by the film laminating roller, so that the protective film deforms and wrinkles to influence the appearance of the product; in addition, when the cutter transversely cuts the protective film at the gap, the cutter drags the cutting part of the protective film, so that the cutting part of the protective film is wrinkled, and the appearance of a product is also affected; and after cutting, the protective film exceeds the composite board, and the part of the protective film exceeding the composite board is easily touched in the transportation and carrying process, so that the protective film is easily lifted and separated from the composite board.

Disclosure of Invention

In order to overcome the defect that gaps exist between two adjacent composite boards, and no support exists below the protective films, the protective films between the adjacent composite boards are extruded by the film laminating rollers, so that deformation and wrinkling of the protective films affect the appearance of the products, the invention provides a composite board film laminating device and a method thereof.

The technical implementation scheme of the invention is as follows: a composite board laminating device comprises a footing, a first mounting plate and an electric conveyer belt; three feet are fixedly connected to the lower sides of the two first mounting plates respectively; an electric conveying belt is commonly installed between the two first mounting plates, and a plurality of through grooves are formed in a conveying belt of the electric conveying belt; the device also comprises a receiving plate, a film covering unit, a cutting unit and a pressing unit; the middle parts of the two first mounting plates are commonly connected with a film laminating unit for laminating a film to be laminated; the two first mounting plates are commonly connected with a cutting unit for cutting the protective film; the cutting unit is connected with two bearing plates; the left parts of the two first mounting plates are commonly connected with a pressing unit for pressing the film.

As an improvement of the above proposal, the upper parts of the opposite sides of the two bearing plates are arranged in arc shapes.

As an improvement of the scheme, the film covering unit comprises a second mounting plate, a film placing roller, a winding roller, a third mounting plate, a first spring telescopic rod, a mounting block and an electric film covering roller; the two first mounting plates are fixedly connected with a second mounting plate respectively; the two second mounting plates are connected with a film placing roller together; the two second mounting plates are connected with a winding roller together; a third mounting plate is fixedly connected to the two second mounting plates respectively; the lower sides of the two third mounting plates are fixedly connected with a first spring telescopic rod respectively; the telescopic ends of the two first spring telescopic rods are fixedly connected with a mounting block respectively; an electric laminating roller is connected between the two mounting blocks.

As an improvement of the scheme, the cutting unit comprises a power assembly, a fourth mounting plate, a first electric push rod, a mounting frame, a motor, a transmission shaft, a fifth mounting plate, an annular cutting knife, a third electric push rod and a sixth mounting plate; the two first mounting plates are connected with a power assembly together; the power assembly is connected with a fourth mounting plate; a plurality of first electric push rods are fixedly connected to the upper side of the fourth mounting plate; the telescopic ends of the plurality of first electric push rods are fixedly connected with a mounting frame; the front side of the mounting frame is fixedly connected with a motor; the upper middle part of the mounting frame is connected with a transmission shaft; the output shaft of the motor is fixedly connected with the transmission shaft; a fifth mounting plate is fixedly connected to the lower side of the transmission shaft; an annular cutter is fixedly connected to the lower side of the fifth mounting plate; the left part and the right part of the upper side of the mounting frame are respectively fixedly connected with a plurality of third electric push rods; the third electric push rods at the left part are fixedly connected with a bearing plate; the right parts of the plurality of third electric push rods are fixedly connected with the other bearing plate; the middle part of the mounting frame is fixedly connected with a sixth mounting plate.

As a modification of the above, the upper side of the sixth mounting plate has tackiness.

As an improvement of the scheme, the device also comprises a pressing component, wherein the pressing component comprises a second electric push rod and a first pressing plate; the left side and the right side of the transmission shaft are fixedly connected with a plurality of second electric push rods respectively; a plurality of second electric push rods on the left side are fixedly connected with a first pressing plate; the second electric push rods on the right side are fixedly connected with another first pressing plate; the two first pressing plates are in sliding connection with the annular cutting knife.

As an improvement of the above-mentioned scheme, the first platen end is provided in an arc shape.

As an improvement of the above-mentioned scheme, the pressing unit includes a seventh mounting plate, an eighth mounting plate, a linear movement assembly, an air cylinder, a ninth mounting plate and a second pressing plate; a seventh mounting plate is fixedly connected to the two first mounting plates respectively; an eighth mounting plate is fixedly connected between the two seventh mounting plates; the lower side of the eighth mounting plate is connected with a linear moving assembly; the linear moving assembly is connected with an air cylinder; a ninth mounting plate is fixedly connected to the telescopic end of the air cylinder; the ninth mounting panel downside rigid coupling has two second clamp plates to two second clamp plates are bilateral symmetry and set up, and the second clamp plate is L shape moreover.

As an improvement of the above, the eighth mounting plate is inclined.

A composite board laminating method; the method comprises the following steps:

s1: placing a film-coated plate on an electric conveyor belt;

s2: controlling the film to be coated to move through the rotating electric film coating roller, and coating the film on the film to be coated by the electric film coating roller;

s3: controlling the annular cutting knife to rotate so as to cut off the protective film between two adjacent film-coating plates longitudinally;

s4: and primarily pressing the protective film protruding out of the film-coating plate on the side surface of the film-coating plate through the first pressing plate, and then completely pressing the protective film on the side surface of the film-coating plate through the second pressing plate.

The beneficial effects are that: 1. according to the invention, the two bearing plates are arranged between the two film plates to be coated, and the two bearing plates move together along with the film plates to be coated to carry out film coating during film coating, so that the protective film cannot be extruded at the end part of the film plates to be coated during film coating, and the problem that the protective film is deformed due to the fact that the protective film between two adjacent film plates to be coated is extruded by an electric film coating roller when no support piece exists between the two adjacent film plates to be coated is prevented.

2. According to the invention, the protection film is cut by controlling the annular cutting knife to longitudinally move instead of transversely moving the cutting knife to cut the protection film in the prior art, so that the problem that the cutting knife transversely moves to drag the cutting part of the protection film to cause wrinkling of the cutting part of the protection film is solved, the protection film protruding the film to be covered is primarily pressed on the side surface of the film to be covered by the first pressing plate, and then the protection film is completely pressed on the side surface of the film to be covered by the second pressing plate, so that the protection film protruding the upper surface of the film to be covered is completely stuck on the side surface of the protection film, and the part of the protection film protruding the film to be covered is prevented from touching in the transportation and carrying process, so that the protection film is lifted and separated from the composite board.

Drawings

Fig. 1 is a schematic perspective view of a composite board film laminating device of the present invention;

fig. 2 is a schematic view of a partial three-dimensional structure of a composite board laminating device according to the present invention;

fig. 3 is a schematic perspective view of a film laminating unit of the composite board film laminating device of the invention;

fig. 4 is a schematic perspective view of a cutting unit of the composite board laminating device of the present invention;

fig. 5 is a partial perspective structural sectional view of a cutting unit of the composite board lamination device of the present invention;

fig. 6 is a schematic perspective view of an annular cutter of the composite board film laminating device of the invention;

fig. 7 is a schematic view of a partial perspective structure of a cutting unit of the composite board laminating device of the present invention;

fig. 8 is a schematic perspective view of a pressing unit of the composite board laminating device of the present invention;

fig. 9 is a schematic perspective view of a second platen of the composite board laminating apparatus according to the present invention.

Reference numerals in the figures: 1-foot, 2-first mounting plate, 3-electric conveyer belt, 4-film-coating plate, 201-second mounting plate, 202-film-releasing roller, 203-winding roller, 204-third mounting plate, 205-first spring telescopic rod, 206-mounting block, 207-electric film-coating roller, 301-first electric slide rail, 302-first electric slide block, 303-fourth mounting plate, 304-first electric push rod, 305-mounting frame, 306-motor, 307-transmission shaft, 308-fifth mounting plate, 309-annular cutter, 3010-second electric push rod, 3011-first pressing plate, 3012-third electric push rod, 3013-bearing plate, 3014-sixth mounting plate, 501-seventh mounting plate, 502-eighth mounting plate, 503-second electric slide rail, 504-second electric slide block, 505-cylinder, 506-ninth mounting plate, 507-second pressing plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

A composite board laminating device, as shown in figures 1-9, comprises a footing 1, a first mounting plate 2 and an electric conveyer belt 3; three feet 1 are respectively connected to the lower sides of the two first mounting plates 2 through equidistant bolts, and the two first mounting plates 2 are symmetrically arranged in front-back mode; an electric conveyer belt 3 is commonly arranged between the two first mounting plates 2, and a plurality of through grooves are formed in a conveyer belt of the electric conveyer belt 3;

the device also comprises a receiving plate 3013, a film covering unit, a cutting unit and a pressing unit; the middle parts of the upper sides of the two first mounting plates 2 are commonly connected with a film covering unit; the opposite sides of the two first mounting plates 2 are commonly connected with a cutting unit; the cutting unit is connected with two bearing plates 3013, and the upper parts of the opposite sides of the two bearing plates 3013 are arc-shaped to prevent the protective film from being pierced; the pressing units are commonly connected to the upper left portions of the two first mounting plates 2.

The laminating unit comprises a second mounting plate 201, a film placing roller 202, a winding roller 203, a third mounting plate 204, a first spring telescopic rod 205, a mounting block 206 and an electric laminating roller 207; the middle parts of the upper sides of the two first mounting plates 2 are respectively connected with a second mounting plate 201 through bolts; the right parts of the two second mounting plates 201 are connected with a film placing roller 202 in a common rotation way; the middle parts of the two second mounting plates 201 are connected with a winding roller 203 in a common rotation way; a third mounting plate 204 is fixedly connected to the left side of the opposite sides of the two second mounting plates 201 respectively; the lower sides of the two third mounting plates 204 are fixedly connected with a first spring telescopic rod 205 respectively; the telescopic ends of the two first spring telescopic rods 205 are fixedly connected with a mounting block 206 respectively; an electric laminating roller 207 is connected between the two mounting blocks 206 by common bolts.

The cutting unit comprises a power assembly, a fourth mounting plate 303, a first electric push rod 304, a mounting frame 305, a motor 306, a transmission shaft 307, a fifth mounting plate 308, an annular cutting knife 309, a third electric push rod 3012 and a sixth mounting plate 3014; the middle parts of the two first mounting plates 2 are commonly connected with a power assembly; the power assembly is connected to a fourth mounting plate 303; two first electric push rods 304 are fixedly connected to the upper side of the fourth mounting plate 303; the telescopic ends of the two first electric push rods 304 are fixedly connected with a mounting frame 305; the front side of the mounting frame 305 is connected with a motor 306 through bolts; the upper middle part of the mounting frame 305 is rotatably connected with a transmission shaft 307; an output shaft of the motor 306 is fixedly connected with a transmission shaft 307; a fifth mounting plate 308 is fixedly connected to the lower side of the transmission shaft 307; an annular cutter 309 is fixedly connected to the lower side of the fifth mounting plate 308; three third electric push rods 3012 are fixedly connected to the left side and the right side of the upper side of the mounting frame 305 respectively; the three third electric push rods 3012 at the left part are fixedly connected with a bearing plate 3013; the right three third electric push rods 3012 are fixedly connected with the other receiving plate 3013; the middle part of the mounting frame 305 is fixedly connected with a sixth mounting plate 3014, and the upper side of the sixth mounting plate 3014 is provided with viscosity for adhering the cut protection film.

The power assembly comprises a first electric sliding rail 301 and a first electric sliding block 302; the middle parts of the opposite sides of the two first mounting plates 2 are respectively connected with a first electric slide rail 301 by bolts; the two first electric sliding rails 301 are respectively connected with a first electric sliding block 302 in a sliding way; the two first electric sliders 302 are fixedly connected with a fourth mounting plate 303.

The pressing assembly comprises a second electric push rod 3010 and a first pressing plate 3011; three second electric push rods 3010 are fixedly connected to the left side and the right side of the transmission shaft 307 respectively; the three second electric push rods 3010 on the left side are fixedly connected with a first pressing plate 3011 together, and the end parts of the first pressing plate 3011 are arc-shaped to prevent the protective film from being scratched; the other first pressing plate 3011 is fixedly connected with the three second electric push rods 3010 on the right side; both first press plates 3011 are in sliding connection with the annular cutter 309.

The pressing unit comprises a seventh mounting plate 501, an eighth mounting plate 502, a linear movement assembly, a cylinder 505, a ninth mounting plate 506 and a second pressing plate 507; a seventh mounting plate 501 is respectively connected with the left sides of the upper sides of the two first mounting plates 2 through bolts; an eighth mounting plate 502 is fixedly connected between the two seventh mounting plates 501, and the eighth mounting plate 502 is inclined; a linear moving assembly is connected to the lower side of the eighth mounting plate 502; the linear motion assembly has a cylinder 505 connected thereto; a ninth mounting plate 506 is fixedly connected to the telescopic end of the cylinder 505; the ninth mounting panel 506 downside bolted connection has two second clamp plates 507 to two second clamp plates 507 are bilateral symmetry and set up, and second clamp plate 507 is L shape moreover, and second clamp plate 507 downside is provided with the gyro wheel for reduce with the frictional force between the membrane in order to conveniently roll.

The linear moving assembly comprises a second electric sliding rail 503 and a second electric sliding block 504; a second electric sliding rail 503 is connected to the lower side of the eighth mounting plate 502 through bolts; a second electric sliding block 504 is connected on the second electric sliding rail 503 in a sliding way; the lower side of the second electric slider 504 is fixedly connected with a cylinder 505.

A composite board laminating method; the method comprises the following steps:

s1: placing the film-coating plate 4 to be coated on the electric conveying belt 3;

s2: controlling the film-coating plate 4 to move through the rotating electric film-coating roller 207, wherein the electric film-coating roller 207 covers the film on the film-coating plate 4;

s3: the annular cutting knife 309 is controlled to rotate so as to cut off the protection film between two adjacent film-coated plates 4 longitudinally;

s4: the protective film protruding out of the film-coating plate 4 is primarily pressed on the side surface of the film-coating plate 4 by the first pressing plate 3011, and then the protective film is completely pressed on the side surface of the film-coating plate 4 by the second pressing plate 507.

Specifically, the film coating of the film coating plate 4 includes the following contents:

firstly, placing a film-coating plate 4 on an electric conveying belt 3, wherein the film-coating plate 4 is positioned between two penetrating grooves on the conveying belt of the electric conveying belt 3, controlling the electric conveying belt 3 to drive the film-coating plate 4 to move leftwards to the left side of a receiving plate 3013 positioned on the left side of the film-coating plate 4, then controlling two first electric push rods 304 to drive a mounting frame 305 and related components to move upwards to the upper side of the left receiving plate 3013 to be level with the upper side of the film-coating plate 4, and enabling the left side of the left receiving plate 3013 to be attached to the right side of the left film-coating plate 4; then placing the next film-coating plate 4 on the electric conveyor belt 3, and enabling the left side of the second film-coating plate 4 to cling to the right side of the right receiving plate 3013; then, continuously controlling the electric conveying belt 3 to drive the to-be-coated plate 4 to move leftwards, and simultaneously controlling the two first electric sliding rails 301 to drive the corresponding first electric sliding blocks 302 to move leftwards, and driving the fourth mounting plate 303 and the related components thereof to move by the two first electric sliding blocks 302 so that the receiving plate 3013 and the to-be-coated plate 4 synchronously move; the protective film on the film placing roller 202 is wound around the winding roller 203 and the electric film coating roller 207 in turn in advance, when the film to be coated 4 passes through, the electric film coating roller 207 is controlled to rotate to cover the protective film on the film to be coated 4, the protective film is attached to the right end of the film to be coated 4 from the left end of the film to be coated 4 to the right end of the film to be coated 4, and the electric film coating roller 207 is attached to the film to be coated 4 all the time under the action of the two first spring telescopic rods 205, so that the film is attached to the film to be coated 4; when the protective film is stuck on the left receiving plate 3013 after the left film-coating plate 4 is stuck, the protective film is stuck on the right receiving plate 3013 before the protective film starts to be stuck on the right film-coating plate 4, so that the protective film cannot be extruded at the end part of the film-coating plate 4, and the problem that the edge of the film-coating plate 4 is not smooth to be connected with the protective film due to the fact that the protective film is extruded by the electric film-coating roller 207 between two adjacent film-coating plates 4 is prevented when no supporting piece exists between the two adjacent film-coating plates 4.

Example 2

Specifically, the cutting of the film between two adjacent film-coating plates 4 includes the following:

after the two receiving plates 3013 pass through the electric film coating roller 207, the third electric push rod 3012 is controlled to drive the receiving plates 3013 to move downwards, so that the receiving plates 3013 move downwards to be separated from the film coating plate 4 and the protective film, then, based on the forward-backward view, the motor 306 is controlled to drive the transmission shaft 307 to rotate anticlockwise, the transmission shaft 307 drives the fifth mounting plate 308, the annular cutting knife 309, the second electric push rod 3010 and the first pressing plate 3011 to rotate, in the process, the right end of the annular cutting knife 309 moves to cut off the protective film, and because the movement track of the annular cutting knife 309 is arc-shaped, the position of a fracture of the protective film is not close to the edge of the film coating plate 4, but is more than one section, then, the three second electric push rods 3010 on the right side are controlled to drive the first pressing plate 3011 on the right side to stretch out, as shown in fig. 7, then, the motor 306 is controlled to drive the transmission shaft 307 to rotate clockwise to reset, and the stretched first pressing plate 3011 is reset in the reset process, the position of the right pressing plate 3014 is protruded to the left side to be protruded from the film coating plate to the left side, and then, the first pressing plate 3014 is controlled to move the first pressing plate 3014 on the right side to be reset, and the first pressing plate 3014 is reset to move.

After the protective film is cut off, the protective film protruding from the right end of the left film-coating plate 4 falls on the upper side of the sixth mounting plate 3014, the upper side of the sixth mounting plate 3014 is provided with viscosity, the protective film protruding from the right end of the left film-coating plate 4 is adhered, so that the protective film is tensioned and is convenient to cut off, then the motor 306 drives the transmission shaft 307 to rotate clockwise, the transmission shaft 307 drives the fifth mounting plate 308, the annular cutting knife 309, the second electric push rod 3010 and the first pressing plate 3011 to rotate until the right end of the left first pressing plate 3011 is positioned above the protective film, the left end of the annular cutting knife 309 moves to cut off the protective film in the process, then the left three second electric push rods 3010 are controlled to drive the left first pressing plate 3011 to stretch out, and then the motor 306 is controlled to drive the transmission shaft 307 to rotate anticlockwise to reset, the stretched first pressing plate 3011 is adhered to the right side of the left film-coating plate 4 to rotate clockwise, so that the protective film protruding from the right end of the left film-coating plate 4 is primarily pressed on the right side of the film-coating plate 4, after the pressing is finished, the three second electric push rods 3010 are controlled to drive the left end of the annular cutting knife 3011 to move away from the first pressing plate 3014, and the left end of the protective film is cut off after the protective film is cut off; then, the first electric push rods 304 are controlled to drive the mounting frames 305 and the associated components thereof to move downwards for resetting, then, the two first electric slide rails 301 are controlled to drive the corresponding first electric slide blocks 302 to move rightwards, and the two first electric slide blocks 302 drive the fourth mounting plates 303 and the associated components thereof to move for resetting so as to prepare for the next treatment of the film-coating plate 4; the method of cutting off the whole protective film by the annular cutting knife 309 at the same time replaces the prior art that the protective film is cut by a method that the cutting knife moves from one side of the protective film to the other side, and the problem that the cutting part of the protective film is wrinkled due to the fact that the cutting knife drags the cutting opening of the protective film in the moving process is avoided.

Example 3

When two adjacent film plates 4 to be coated are moved to a position right below the two second pressing plates 507 at intervals, the control cylinder 505 drives the ninth mounting plate 506 and the two second pressing plates 507 to move downwards, the two second pressing plates 507 move downwards to press the protective films exposed out of the upper surfaces of the film plates 4 to be coated on the side surfaces of the film plates 4 to be coated after cutting, then the second electric sliding rail 503 is controlled to drive the second electric sliding block 504, the cylinder 505, the ninth mounting plate 506 and the two second pressing plates 507 to move forwards, the two second pressing plates 507 sequentially paste the protective films from the rear to the front, so that the protective films protruding out of the upper surfaces of the film plates 4 to be coated are all pasted on the side parts of the protective films, the electric conveying belt 3 is in an operation state, therefore, the second electric sliding rail 503 is obliquely arranged in an offset mode, the offset angle is matched with the conveying speed of the electric conveying belt 3, the two second pressing plates 503 move forwards relative to the film plates 4 to be coated, the film plates to be coated are not required to stop conveying work to be compressed, the processing efficiency is improved, and finally the film plates 507 to be coated to be removed; the protective film protruding from the upper surface of the film-coating plate 4 is stuck on the side surface of the film-coating plate, so that the part of the protective film protruding from the film-coating plate 4 is prevented from being touched in the transportation and carrying process, and the protective film is lifted and separated from the composite board.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (10)

1. A composite board laminating device comprises a footing (1); three footings (1) are fixedly connected to the lower sides of the two first mounting plates (2) respectively; an electric conveying belt (3) is commonly installed between the two first mounting plates (2), and a plurality of through grooves are formed in a conveying belt of the electric conveying belt (3); it is characterized by also comprising a film covering unit; the middle parts of the two first mounting plates (2) are commonly connected with a film coating unit for coating a film to be coated plate (4); the two first mounting plates (2) are commonly connected with a cutting unit for cutting the protective film; the cutting unit is connected with two bearing plates (3013); the left parts of the two first mounting plates (2) are commonly connected with a pressing unit for pressing the film.

2. A composite board laminating apparatus according to claim 1, wherein the upper parts of the opposite sides of the two receiving boards (3013) are arranged in an arc shape.

3. A composite board laminating apparatus according to claim 1, wherein the laminating unit comprises a second mounting plate (201); two first mounting plates (2) are fixedly connected with a second mounting plate (201) respectively; the two second mounting plates (201) are connected with a film placing roller (202) together; the two second mounting plates (201) are commonly connected with a winding roller (203); a third mounting plate (204) is fixedly connected to the two second mounting plates (201) respectively; the lower sides of the two third mounting plates (204) are fixedly connected with a first spring telescopic rod (205) respectively; the telescopic ends of the two first spring telescopic rods (205) are fixedly connected with a mounting block (206) respectively; an electric laminating roller (207) is commonly connected between the two mounting blocks (206).

4. A composite board laminating apparatus according to claim 3, wherein the cutting unit comprises a power assembly; the two first mounting plates (2) are connected with a power assembly together; the power assembly is connected with a fourth mounting plate (303); a plurality of first electric push rods (304) are fixedly connected to the upper side of the fourth mounting plate (303); the telescopic ends of the plurality of first electric push rods (304) are fixedly connected with a mounting frame (305) together; a motor (306) is fixedly connected to the front side of the mounting frame (305); the upper middle part of the mounting frame (305) is connected with a transmission shaft (307); an output shaft of the motor (306) is fixedly connected with the transmission shaft (307); a fifth mounting plate (308) is fixedly connected to the lower side of the transmission shaft (307); an annular cutter (309) is fixedly connected to the lower side of the fifth mounting plate (308); a plurality of third electric push rods (3012) are fixedly connected at the left part and the right part of the upper side of the mounting frame (305) respectively; the third electric push rods (3012) at the left part are fixedly connected with a bearing plate (3013); the right parts of the plurality of third electric push rods (3012) are fixedly connected with the other bearing plate (3013); a sixth mounting plate (3014) is fixedly connected at the middle part of the mounting frame (305).

5. A composite board laminating apparatus according to claim 4, wherein the upper side of the sixth mounting board (3014) has adhesive properties.

6. A composite board laminating apparatus according to claim 4, further comprising a pressing assembly comprising a second electric push rod (3010); a plurality of second electric push rods (3010) are fixedly connected to the left side and the right side of the transmission shaft (307) respectively; a first pressing plate (3011) is fixedly connected with a plurality of second electric push rods (3010) on the left side; the second electric push rods (3010) on the right side are fixedly connected with another first pressing plate (3011) together; both first pressing plates (3011) are in sliding connection with the annular cutting knife (309).

7. A composite board laminating apparatus according to claim 6, wherein the first platen (3011) end is arranged in an arcuate configuration.

8. A composite board laminating apparatus according to claim 6, wherein the pressing unit includes a seventh mounting plate (501); a seventh mounting plate (501) is fixedly connected to the two first mounting plates (2) respectively; an eighth mounting plate (502) is fixedly connected between the two seventh mounting plates (501); the lower side of the eighth mounting plate (502) is connected with a linear moving assembly; the linear moving assembly is connected with a cylinder (505); a ninth mounting plate (506) is fixedly connected with the telescopic end of the air cylinder (505); two second pressing plates (507) are fixedly connected to the lower side of the ninth mounting plate (506), the two second pressing plates (507) are symmetrically arranged left and right, and the second pressing plates (507) are L-shaped.

9. A composite board laminating apparatus according to claim 8, wherein the eighth mounting plate (502) is inclined.

10. A method of laminating a composite board using a composite board laminating apparatus according to claim 9, comprising the steps of:

s1: placing a film-coating plate (4) to be coated on an electric conveying belt (3);

s2: controlling the film to be coated plate (4) to move through an electric film coating roller (207) in rotation, wherein the electric film coating roller (207) covers the film on the film to be coated plate (4);

s3: the annular cutting knife (309) is controlled to rotate so as to cut off the protection film between two adjacent film-coating plates (4) longitudinally;

s4: the protective film protruding out of the film-coating plate (4) is initially pressed on the side surface of the film-coating plate (4) through the first pressing plate (3011), and then the protective film is completely pressed on the side surface of the film-coating plate (4) through the second pressing plate (507).